Modular hip prosthesis

ABSTRACT

A modular hip prosthesis for the replacement of a portion of the femur is provided. The prosthesis is assembled from a kit that includes a stem member having an upper portion and a lower portion, with the lower portion sized to be received in the femur. The kit also includes a body member that is sized to replace a portion of the femur and is configured to be received over the upper portion of a stem member. The kit also includes a head member that is sized to replace the head of the femur. A neck member is provided to attach the head member to the body member to form an assembled prosthesis.

CROSS-REFERENCES TO RELATED APPLICATIONS

This in a continuation-in-part of copending U.S. patent application Ser. No. 07/450,058 filed December 13, 1989 currently pending, which is a continuation of U.S. patent application Ser. No. 06/896,857 filed Aug. 15, 1986, now abandoned.

BACKGROUND AND SUMMARY OF THE INVENTION

The present invention relates to prostheses for replacement of a portion of the hip joint. More particularly, the present invention relates to a modular prosthesis for replacement of the upper portion of the femur.

Conventional prostheses for the replacement of the upper portion of the femur are generally unitary structures. The conventional prosthesis generally includes a stem portion that is designed to extend downwardly into a cavity within the femur. The stem portion may be secured within the femur by the use of bone cement, or in other adaptations, the stem may be configured to promote bone ingrowth to secure the stem. The conventional hip prosthesis also includes a neck portion that is integral with the stem portion. The neck portion is configured to replace the neck of the femur which will normally be resected with the head of the femur. Integrally fixed to the neck portion will normally be a generally spherical head portion that is configured to replace the head of the femur. A collar may be provided between the neck portion and the stem portion to stabilize the prosthesis on the resected femur. Generally, the collar will rest upon the resected surface of the femur to disperse the load on the prosthesis over a greater area, and to compress the underlying bone. A collar may be provided between the neck portion and the stem portion to stabilize the prosthesis and function as a stop or reference point on the resected femur.

Because conventional prostheses are generally unitary devices, the practice has been to maintain a large inventory of prostheses of different sizes to accommodate the different bone sizes that are to be replaced. Generally, the patient is evaluated by x-ray or some other means to determine the approximate bone size, and consequently the approximate required prosthesis size. During the replacement operation, several different prostheses are made available as suggested by the evaluation. The appropriate prosthesis is then selected for insertion into the patient at the time of operation.

One problem with the conventional, unitary prosthesis is that the hospital has to maintain a large number of differently sized prostheses to accommodate different sizes of bones to be replaced. Generally, a supply of prostheses with and without a collar also must be maintained in the inventory. Also, prostheses with different shapes and angles of the stem and neck portion must be maintained. Even with this large inventory of prostheses, it is often difficult to find a prosthesis that is sized and shaped exactly for the individual patient.

Prostheses having a stem portion and a separate head portion are known. One such prosthesis is shown in U.S. Pat. No. 4,051,559. U.S. Pat. No. 4,051,559 discloses a prosthesis that includes a separate threaded stem portion that is adapted to be screwed into a prepared cavity within the femur. The prosthesis separately comprises a head portion that includes a neck and collar that is adapted to be mated with the stem portion. This prosthesis is not designed to be assembled prior to insertion within the patient. The stem portion must first be screwed into the cavity within the femur. The head portion is then attached to the installed stem portion by a bolt. The collar is designed to rest upon the resected surface of the femur to support the load placed on the prosthesis. Because of the design of the stem portion, the head portion must include the collar in order to support the weight that will be placed on the prosthesis. This prosthesis is limited in flexibility because the stem portion must be straight in order to be screwed into the femur. Also, the head portion, including the neck and collar is a unitary structure which further reduces the flexibility of the device.

Another prosthesis having a stem portion and a separate head portion is shown in U.S. Pat. No. 3,806,957. U.S. Pat. No. 3,806,957 discloses a prosthesis that includes a separate stem portion having a proximal end that is broadened somewhat. The broadened proximal end of the stem is configured to receive a head and threaded neck portion to form a complete prosthesis. The patent discloses that the neck may be elongated or shortened depending on the specific anatomy of different patients. This prosthesis, like the prosthesis disclosed in U.S. Pat. No. 4,051,559, is limited in flexibility because the head and neck portion is a unitary structure, and because the head and neck portion attaches directly into the stem portion.

A prosthesis in which the stem portion comprises more than one component is shown in U.S. Pat. No. 3,987,499. U.S. Pat. No. 3,987,499 discloses a prosthesis having a stem or shank component that includes two parts, an anchoring part and a transition part. A ball is connected to the transition part. Also, a collar may be included between the ball and a portion of the femur. The anchoring part is provided with external threads that are adapted to tap themselves into the femur. The transition part is coupled to the anchoring part by a guide pin and securing screw. The ball is adapted to be screwed onto the free end of the transition part. One problem with the prosthesis disclosed in U.S. Pat. No. 3,987,499 is that the prosthesis is designed to be placed in position within the body component by component, and assembled sequentially. Another problem with this prosthesis is that the neck is a part of the transition part, which reduces the flexibility of the device. In addition, the collar is configured to be supported only between the bone and the ball, and is thus subject to rotational and toggling instability.

One object of the present invention is to provide a modular hip prosthesis that has a great deal of flexibility in its assembly, both as to the size and shape of the assembled device.

Another object of the present invention is to provide a modular hip prosthesis that may be assembled in the operating room before any component is inserted into the patient.

Yet another object of the present invention is to provide a modular hip prosthesis that is configured to function with or without a collar.

Yet another object of the present invention is to provide a modular hip prosthesis that includes a stem portion that may be shaped to fit a curvature within the bone structure, if necessary.

According to the present invention, a kit for the assembly of a hip prosthesis for the replacement of a portion of a femur is provided. The kit comprises a stem member having an upper portion and a lower portion, with the lower portion sized to be received into the femur. The kit also comprises a body member that is sized to replace a portion of the femur and is configured to be received over the upper portion of the stem member. In a preferred embodiment, the body member includes a tapered longitudinal bore that is generally aligned with the longitudinal axis of the femur. The stem member has an upper portion received and secured in the tapered longitudinal bore of the body member. The upper portion of the elongated stem member preferably includes a tapered portion adapted to be snugly received in the longitudinal bore and a cylindrical portion contiguous to the lower portion received in the lowermost extremity of the longitudinal bore, the cylindrical portion relieving any stress concentration at the lower margin of the bore.

The kit also comprises a head member that is sized to replace the head of the femur, including means to attach the head member to an upwardly and inwardly directed portion of the body member. The means for engaging the head member with the upwardly and inwardly directed portion of the body member preferably comprises a neck member including a first end formed to include a tapered projection that is sized to be received into a tapered hole in the head member to secure the head member to the neck member, and a second end for engaging an opening in the upwardly and inwardly directed portion of the body member.

In a preferred embodiment the neck member includes a threaded portion and a tapered portion for engaging threaded and tapered portions of the opening in the body member. The first end of the neck member preferably includes a frangible torque control means for controlling the torque applied to the neck member when engaging the opening. The tapered portion of the tapered portion of the neck member first end has a taper angle sufficiently small to provide a wedging engagement, while the tapered portion of the neck member second end has a taper angle sufficiently large to avoid a wedging engagement.

One feature of the present invention is that the kit preferably consists of stem members, body members, and head members, and attaching means all of various sizes and shapes. These separate components are adapted to be assembled together to form a custom prosthesis of a desired size and shape. One advantage of this feature is that a hip prosthesis of a desired size and shape may be assembled from the kit at the time of the operation.

Another feature of the present invention is that the kit comprises body members that are inserted over the stem members and are configured to bear a portion of the load that is exerted on the prosthesis. One advantage of this feature is that the prosthesis may be assembled without a collar component if the indications presented during the operation suggest that a collar may not be needed, or may produce unsatisfactory side effects.

In preferred embodiments of the present invention, the stem member, body member, and the head member are selected from a group consisting of differently sized and shaped members, respectively. One feature of the foregoing structure is that with different sizes and shapes of stem members, body members, and head members, the number of combinations available to assemble a hip prosthesis is greatly increased, without increasing the number of inventoried components. One advantage of this feature is that the flexibility of assembling a hip prosthesis for an individual patient is greatly increased.

The modular hip prosthesis of the present invention thus provides the ability to assemble a custom prosthesis by selecting different sizes and shapes of individual components to meet the requirements of the individual patient exactly. The provision of the kit concept for the prosthesis greatly reduces the inventory required to be maintained by the hospital. Also, the kit form of the prosthesis increases greatly the flexibility of the system, and provides for the assembly of a prosthesis that may otherwise be unavailable.

Additional objects, features, and advantages of the invention will be apparent to those skilled in the art upon consideration of the following detailed description of preferred embodiments exemplifying the best mode of carrying out the invention as presently perceived. The detailed description particularly refers to the accompanying Drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a cross sectional view through one embodiment of the modular hip prosthesis of the present invention installed in a femur.

FIG. 2 is a view similar to FIG. 1 showing another embodiment of the present invention.

FIG. 2a is a partial view of a modification of the collar component and nut arrangement of the embodiment shown in FIG. 2.

FIG. 3 is an exploded perspective view of another embodiment of the present invention showing a modified stem member and body member.

FIG. 4 is a view similar to FIG. 3 showing another embodiment of the present invention with a collar component and an interlocking key and keyway in the body member and stem member.

FIG. 5 is a perspective view of another embodiment of the present invention showing a modified body member.

FIG. 6 is a perspective view of another embodiment of the present invention showing a modified stem member.

FIG. 7 is an exploded perspective view of another embodiment of the present invention showing a modified stem member and a modified neck and body member.

FIG. 7a is a perspective view of an adapter block for use when the collar component shown in FIG. 7 is not utilized.

FIG. 7b is a view similar to FIG. 7a showing a modified adapter block.

FIG. 7c is a perspective view of a modification of the neck member shown in FIG. 7.

FIG. 8 is a cross sectional view through the assembly illustrated in FIG. 7 installed in the femur.

FIG. 9 is a cross sectional view of yet another embodiment of the present invention.

FIG. 10 is an enlarged detail view showing the cooperation between the lower end of the body member and the stem member.

FIG. 11 is a side elevation view of a modified neck member having a frangible torque control means.

FIG. 12 is a sectional detail view taken along line 12--12 of the neck member shown in FIG. 11.

DETAILED DESCRIPTION OF THE DRAWINGS

Referring now to FIG. 1, FIG. 1 shows a modular hip prosthesis 10 of the present invention inserted into a femur 12 in which the head and neck portions (not shown) have been resected. The resection of the head and neck portions of the femur 12 has been performed to leave a generally planar surface 14 on the femur 12. A cavity 16 has been formed in the femur 12 to receive the prosthesis 10. It will be understood that the resection procedure and the procedure for forming the cavity are well known in the art. It will also be understood that the cavity 16 may be formed to be the exact same size as the prosthesis 10, or if necessary, the cavity 16 may be formed to be somewhat larger than the size of the prosthesis 10. The cavity 16 shown in FIG. 1 is illustrative of the latter, with the cavity 16 being somewhat larger than the size of the prosthesis 10.

The prosthesis 10 includes an elongated stem member 20 that is generally circular in cross section and includes a lower portion 22 and an upper portion 24. The upper portion 24 has a diameter slightly less than the diameter of the lower portion 22. The demarcation between the upper portion 24 and the lower 22 is marked by a chamfer 26. The upper extremity of the stem member 20 terminates in a threaded end 28. The lower portion 22 may have any of several surface treatments, including, but not limited to, blasted, smooth, porous bony-ingrowth, and coated.

A body member 30 is shown disposed over the upper portion 24 of the stem member 20, with the upper portion 24 extending through a bore 32 in the body member 30. The body member 30 includes an upwardly and inwardly directed portion 33 having a medially facing surface 34 in which a threaded bore 36 has been formed. The surface 34 defines a plane 35 that is generally coincident with a plane defined by the base of the neck (not shown) that has been resected from the femur. The body member 30 may be formed by casting or machining and may have any of the several outer finishes discussed in connection with lower portion 22 of the stem member 20. It will be appreciated that, in the orthopedic implant art, having parts which can be made using machining techniques rather than casting techniques provides significant advantages when using certain materials.

A neck member 40 which replaces the natural neck of the femur (not shown) extends generally upwardly and inwardly from the surface 34. The neck member 40 includes a threaded projection 42 that engages the threaded bore 36 in the body member 30. A head member 44 is formed on the proximal end of the neck member 40, with the head member 44 replacing the natural head of the femur (not shown). Notches 46 are formed in the surface of the neck member to permit a wrench (not shown) to be used to tighten the neck member 40 into the body member 30.

The prosthesis 10 is assembled by first inserting the upper portion 24 of the stem member 20 through the bore 32 in the body member 30. A nut 50 is then engaged with the threaded end 28 of the stem member 20 to secure the stem member 20 to the body member 30. It will be understood that the distal end of the bore 32 in the body member 30 includes a chamfer to mate with the chamfer 26 on the stem member 20 to provide a secure engagement. The neck member 40 is then installed in the body member 30 by engaging the threaded projection 42 with the threaded bore 36. The neck member 40 is then tightened using a wrench (not shown) in the notches 46.

To install the assembled prosthesis 10 in the femur 12, a grouting material 52, or bone cement material, is first injected into the cavity 16. The prosthesis 10 is then placed in the cavity 16 such that the distal end of the body member 30 rests upon the surface 14, and the lower portion 22 of a stem member 20 extends downwardly into the cavity 16. The grouting material 52 surrounds the lower portion 22 of the stem 20 and in some cases a portion of the body member 30 and acts in a known manner to secure the prosthesis 10 within the femur 12.

FIG. 2 shows another embodiment of the present invention that is configured to fulfill slightly different anatomical requirements that may be indicated during the replacement procedure. This embodiment is configured to replace a portion of the femur 12 in which only the head and neck portions (not shown) have been resected. The Calcar portion 54 of the femur 12 has been left intact. Therefore, a smaller body member 55 is shown that can be disposed totally within the cavity 16 in the femur 12. Also, a collar 56 is provided that mates with the body member 55 and extends over the Calcar portion 54 of the femur 12. The collar 56 is provided to distribute the load between the body member 55 and the Calcar portion 54. In this embodiment, the body member 55 includes a key 58 that is received in a keyway 60 that is formed in the stem 20. The key 58 and keyway 60 cooperate to prevent any rotation of the body member 55 with respect to the stem member 20. The prosthesis 10 shown in FIG. 2 is inserted into the cavity 16 of the femur 12 that has been filled with a grouting material 52 to secure the prosthesis 10 in a known manner.

FIG. 2a shows a modification of the embodiment shown in FIG. 2. Specifically, the collar 56 of FIG. 2 is replaced by a collar 62 that extends over the threaded end 28 of the stem member 20. A chamfered hole 66 is formed in the extension of the collar 62 that receives the threaded end 28 of the stem member 20. A nut 64 with a chamfer 68 is provided to engage the threaded end 28 of the stem member 20, with the chamfer 68 of the nut engaging the chamfered hole 66 of the collar 62. The chamfer 68 and chamfered hole 66 cooperate to securely engage the collar 62 between the body member 55 and the nut 64.

FIG. 3 shows another embodiment of the present invention including a slightly modified stem member 70 that engages the body member 55 of the embodiment shown in FIG. 2. Specifically, the stem member 70 includes a shorter upper portion 71 in comparison to the stem member 20. A chamfer 72 is provided between the upper portion 71 and the main portion of the stem member 70. The body member 55 includes a modified bore 74 extending therethrough to receive the stem member 70. The modified bore 74 has a chamfer 73 to mate with the chamfer 72 on the stem member 70. This modified stem member 70 and body member 55 may be used when additional strength in the stem member 70 is required, such as, for example, when the stem member 70 has a diameter smaller than normal. FIG. 3 also shows an extension 76 (shown only in dotted) that may be included in the body member 55 to make the body member 55 similar to the body member 30 shown in FIG. 1. The extension 76 will be required if the Calcar portion 54 (FIG. 2) of the femur 12 is being resected and replaced.

FIG. 4 shows another embodiment of the present invention similar to the embodiment shown in FIGS. 2 and 2a. In the embodiment shown in FIG. 4, the key 58 on the body portion 55 and the keyway 60 on the stem member 20 are located on the opposite side compared to the embodiment shown in FIG. 2. Also, the collar 78 is similar to the collar 62 shown in FIG. 2a, however the hole 80 in the extension does not contain a chamfer, thereby permitting the use of the unchamfered nut 50 to engage the threaded end 28 of the stem member 20.

FIG. 5 shows another embodiment of the present invention in which a body member 82 is formed in a somewhat irregular shape. The irregular shaped body 82 may be preferable for insertion into certain femurs (not shown). It will be understood that the body member 82 may be a cast material, or may be machined in a known manner and may have a surface treatment similar to that described in relation to the body member 30 (FIG. 1). It will be further understood that although the body member 82 is formed in a somewhat irregular shape, the essential elements of the body are retained including a longitudinal bore 32 that is generally aligned with the axis of the femur cavity and an upwardly and inwardly directed portion 33 including bore 36.

FIG. 6 shows another embodiment of a modified stem member 84 which may be used in combination with any of the other selected body members in the present invention. Specifically, the stem member 84 includes a curved lower portion 85 that may be inserted into the cavity 16 in the femur 12 (not shown) when the anatomical indications so dictate. It will be understood that the stem member 84 may be mated with either the body member 30, the body member 55, or the body member 82, as discussed previously.

FIG. 7 shows yet another embodiment of the present invention. In this embodiment, a stem member 86 is provided that includes a lower portion 88 that is coated with a bone-ingrowth porous metal coating. Bone-ingrowth coatings are known in the art, and it will be understood that this type of stem 86 is adapted to be inserted into a bone without the use of any grouting or cement material. The upper end of the stem 86 includes a groove 90 that is adapted to mate with a stem clip 94 after the stem member 86 has been inserted through a bore 93 in the body member 92. It will be understood that the groove 90 functions with the stem clip 94 in a manner similar to the threaded end 28 with either nut 50 or nut 64 shown in FIGS. 1-3 to secure the stem member 86 within the body member 92. The body member 92 includes a generally upwardly and inwardly directed portion 95 having a medially facing surface 96 that is formed to include a generally trapezoid-shaped slot 98. A collar 100 is provided that includes a generally trapezoidal-shaped projection 110 that is configured to dovetail into the slot 98 to align and position the collar 100 in the body member 92. The collar 100 includes a hole 112 formed therethrough that aligns with a threaded hole 114 in the body member 92 when the collar 100 is mated with the body member 92.

FIG. 7 also shows a modified neck member 118 that includes a threaded end 120 and a tapered end 122. The neck member 118 is secured to the body member 92 by passing the threaded end 120 through the hole 112 in the collar 100 and into the threaded hole 114. A separate head member 124 is shown that is formed to include a tapered hole (not shown) that mates with the tapered end 122 of the neck member 118 to secure the head member 124 to the neck member 118. It will be understood that the neck member 118 and the head member 124 can be of various shapes and sizes other than those illustrated in FIG. 7. A collar clip 126 is shown that inserts under the projection 110 of the collar 100 to lock the neck member 118 in position after it has been screwed into the threaded hole 114 in the body member 92.

FIG. 7a shows an adapter block 130 that may be inserted into the slot 98 if the collar 100 (FIG. 7) is not used. The adapter block 130 is sized to fill the slot 98 so that the surface 96 on the body member 92 will be generally planar. The adapter block 130 shown in FIG. 7a is configured to accept the stem clip 126 as described above.

FIG. 7b shows another adapter block 132 that also may be inserted into the slot 98 if the collar 100 (FIG. 7) is not used. The adapter block 132 is sized to fill the slot 98 so that the surface 96 on the body member 92 will be generally planar. The adapter block 132 differs from the adapter block 130 in that block 132 is used when no stem clip 126 will be utilized.

FIG. 7c shows a modified neck member 140 that is similar to the neck member 118 shown in FIG. 7. Neck member 140 differs in that the threaded end 120 (FIG. 7) is replaced by a tapered end 142 that may be inserted into a tapered hole (not shown) in any of the body members, such as body member 92 (FIG. 7).

FIG. 8 shows the prosthesis of FIG. 7 assembled and in a use position. To assemble the embodiment shown in FIG. 7, the stem member 86 is first inserted through the bore 93 in the body member 92. The stem clip 94 is then engaged with the groove 90 to secure the stem member 86 within the body member 92. The collar 100 is then engaged with the body member 92 by sliding the projection 110 into the slot 98 so that the hole 112 aligns with the threaded hole 114. The neck member 118 is then threadingly engaged into the threaded hole 114 by the threaded end 120. After the neck member 118 is tightened, the collar clip 126 is inserted under the projection 110 to lock the neck member 118 in position. The head member 124 is then inserted over the tapered end 122 of the neck member 118 to secure the head member 124 to the neck member 118.

The assembled prosthesis is then inserted into the cavity 16 of the femur 12 so that the collar 100 extends over the Calcar portion 54. It will be understood that in this embodiment the cavity 16 is excavated only to the extent necessary to permit the assembled prosthesis to exactly fit within the cavity 16. As discussed previously, the lower portion 88 of the stem member 86 will be secured within the femur 12 by the natural growth process of the bone into the porous surface. Illustratively, the body member 92 may also be coated with a bone-ingrowth material to enhance this ingrowth process.

FIG. 9 shows yet another embodiment of the invention wherein the body 150 includes a tapered longitudinal bore 152 that is generally aligned with the axis of the femur 12. An upper end of the longitudinal cavity emerges through the top surface 166 of the body 150. An upwardly and inwardly directed portion 154 includes an integral collar 156 having lip 158 overlying the Calcar portion 54. The stem 160 includes at its upper end threaded bore 162 which receives threaded fastener 164 to secure the stem 160 to the body 150. The fastener 164 is situated at least in part above a top surface 166 of the body 150, and has a lower surface 168 confronting the top surface 166. The top surface 166 at the uppermost end of the body member 150 is perpendicular to the axis of the femur and intersects the neck basal plane coincident surface 170.

The elongated stem member 160 has an upper portion 172 received and secured in the tapered longitudinal bore 152 of the body member 150 and a lower portion 174 received in the longitudinal cavity of the femur 12. As shown in better detail in FIG. 10, the upper portion 172 of the elongated stem member 160 includes a tapered portion 176 adapted to be snugly received in the longitudinal bore 152 and a cylindrical portion 178 contiguous to the lower portion 174 received in the lowermost extremity 180 of the longitudinal bore so that stress concentrations in the stem member 160 and body member 150 at the lower end of the bore 152 are avoided. Preferably, the tapered portion 176 of the elongated stem member 160 has a taper matching the taper of the longitudinal bore 152. The included angle of the tapered portion 176 is preferably less than about 7° so as to achieve a wedging fit between the elongated stem member 160 and the longitudinal bore 152.

A head member 182 sized to replace the head of the femur (not shown) is joined to the upwardly and inwardly directed portion 154 of the body member 150 by neck member 184. The neck member 184 includes a first end 186 formed to include a tapered portion 188 that is sized to be received into a tapered hole 190 in the head member 184. Preferably, the tapered portion 188 of the neck member 184 has a taper matching the taper of the tapered hole 190. The included angle of the tapered portion 188 is preferably less than about 7° so as to achieve a wedging fit between the neck member 184 and the tapered hole 190 to secure the head member 182 to the neck member 184.

The neck member 184 also includes a second end 192 for engaging the body member 150. The neck member second end 192 includes a tapered portion 194 and a threaded portion 196. The first end tapered portion 188 has a smaller included taper angle than than the second end tapered portion 194. While in the preferred embodiment the first end tapered portion 188 has a taper angle of less than about 7°, the second end tapered portion 194 has a taper angle of more than about 10° so that a wedging action may occur between the neck member 184 and the head 182 but will not generally occur between the neck member 184 and the body member 150.

As shown in FIGS. 11 and 12, the first end 186 of the neck member 184 also includes a frangible torque control means 196 for controlling the torque applied to the neck member 184 when engaging the body member 150. The frangible torque control means 196 comprises a torque application surface 198 shaped to be manipulated by a wrench or the like (not shown). An inside surface 200 and outside surface 202 cooperate to define a region 204 having a cross section which will fracture upon the application of a known torque. The amount of torque required to fracture the region 204 will be recognized by those skilled in the art to be additionally controlled by the choice of materials used in the construction of the neck member 184, the material treatment to which the meck member 184 has been subjected, as well as other well known variables.

To assemble the embodiment shown in FIGS. 9-12, the stem member 160 is first inserted through the tapered bore 152 in the body member 150. The threaded fastener 164 is then engaged with the opening 162 and tightened to secure the stem member 160 within the body member 150. The neck member 184 is then threadingly engaged into the threaded hole 193 by the threaded end portion 196. A wrench or similar tool (not shown) is then coupled to the torque application surface 198 and a torque of steadily increasing value is applied until the fracture region 204 breaks, thereby ensuring the application of the correct amount of torque to secure the neck member 184 to the body member 150. After the neck member 184 is secured to the body member 150, the head member 182 is then positioned over the tapered end 188 of the neck member 184 to secure the head member 182 to the neck member 184. The assembled prosthesis is then inserted into the cavity of the femur 12 so that the lip 158 of integral collar 156 extends over the Calcar portion 54.

Although specific embodiments have been shown assembled in FIGS. 1-12, it will be understood that the components shown in the figures may be interchangeable, and a prosthesis may be assembled utilizing combinations of the illustrated components. This ability to select different sizes and shapes of components to assemble a prosthesis greatly enhances the flexibility available at the time of the operation. Thus, depending upon the anatomical indications presented by the patient, numerous combinations are available to assemble a prosthesis at the time of the operation to meet the exact requirements for that patient.

Although the invention has been described in detail with reference to preferred embodiments and specific examples, variations and modifications exist within the scope and spirit of the invention as described and defined in the following claims. 

What is claimed is:
 1. An implant system for replacing a portion of a femur, said femur having a neck with a base defining a neck basal plane and having a longitudinal cavity defining a first axis, the implant system comprising a body member formed to include an upwardly and inwardly directed portion and a tapered longitudinal bore that is generally aligned with said first axis, said tapered bore extending from a lower region to an upper region of the body member, a head member sized to replace the head of the femur including means for engaging said head member with the upwardly and inwardly directed portion of the body member, and an elongated stem member having a proximal portion received and secured in the tapered longitudinal bore of the body member and a distal portion received in the longitudinal cavity of the femur, the proximal portion of the elongated stem member including an upper tapered portion adapted to be snugly received in the tapered longitudinal bore and a cylindrical portion near to the upper portion whereby the lower cylindrical portion is received in a lower extremity of the longitudinal tapered bore and has a diameter which is less than that of the tapered bore at said lower extremity so that stress concentration at the lower extremity of the bore is avoided.
 2. The implant system of claim 1 wherein the upwardly and inwardly directed portion of the body member includes a planar surface defining a plane generally coincident with said neck basal plane, said planar surface formed to include an opening receiving said means for engaging said head ember.
 3. The implant system of claim 1 further comprising: at least one additional elongated stem member having a lower portion of a size and/or configuration different from that of the original elongated stem member, and an upper portion substantially identical to that of the original elongated stem member and adapted to be received in said longitudinal bore in substitution for the original elongated stem member.
 4. The implant system of claim 1 wherein the tapered portion of the elongated stem member has a taper angle of less than about 7°.
 5. The implant system of claim 1 wherein said body member further comprises: a locking finger, and wherein said stem member further comprises a locking groove, said locking finger and said locking groove adapted to mate to orient the stem member with respect to the body member.
 6. The implant system of claim 1 further comprising: at least one additional head member of a size and/or configuration different from the original head member and adapted for engagment with the upwardly and inwardly directed portion of the body member in substitution for the original head member.
 7. The implant system of claim 2 wherein said means for engaging said head member with the upwardly and inwardly directed portion of the body member further comprises: a neck member including a first end formed to include a tapered projection that is sized to be received into a tapered hole in said head member to secure said head member to said neck member, and a second end for engaging said body member.
 8. The implant system of claim 7 further comprising: a collar member adapted to be disposed between said neck member and said body member in a plane generally coincident with said neck basal plane.
 9. The implant system of claim 8 further comprising at least one additional collar member of a size and/or configuration different from the original collar member for use in substitution thereof.
 10. The implant system of claim 8 wherein said collar member adapted to be disposed between said neck member and said body member further comprises: an extension over the top surface at the uppermost end of the body member and the upper portion of said stem, the collar member including two openings, the first opening configured to receive said upper portion of the stem member and the second opening configured to receive a portion of said neck member.
 11. The implant system of claim 8 wherein said collar member adapted to be disposed between said neck member and said body member further comprises a generally trapezoid-shaped portion, and said body member includes a generally wedge-shaped slot, said trapezoid-shaped portion configured to be received in said wedge-shaped slot to attach said collar member to said body member.
 12. The implant system of claim 7 wherein said opening in said planar surface includes a threaded portion and said neck member second end includes a threaded portion for engaging said opening threaded portion.
 13. The implant system of claim 12 wherein said first end further includes a frangible torque control means for controlling the torque applied to the neck member when engaging said opening.
 14. The implant system of claim 12 wherein said opening in said planar surface includes a tapered portion and said neck member second end further includes a tapered portion between the threaded portion and the first end for engaging said body member.
 15. The implant system of claim 14 wherein said first end tapered portion has a smaller taper angle than than said second end tapered portion.
 16. The implant system of claim 15 wherein said first end tapered portion has a taper angle of less than about 7°, and wherein said second end tapered portion has a taper angle of more than about 10°.
 17. The implant system of claim 1 further comprising a top surface at the uppermost end of the body member perpendicular to said first axis and intersecting the neck basal plane coincident surface, an upper end of the longitudinal cavity emerging through the top surface, and a fastener situated above said top surface and having a lower surface confronting the top surface.
 18. An implant system for replacing a portion of a femur, said femur having a neck with a base defining a neck basal plane and having a longitudinal cavity defining a first axis, the implant system comprising a body member having an upwardly and inwardly directed portion including a planar surface defining a plane generally coincident with said neck basal plane, the planar surface having an opening, the body member also having a tapered longitudinal bore generally aligned with said first axis, said tapered bore extending from a lower region to an upper region of the body member, a head member sized to replace the head of the femur and means for coupling said head member with the opening in the planar surface of the upwardly and inwardly directed portion of the body member, and an elongated stem member having a proximal portion received and secured in the tapered longitudinal bore of the body member and a distal portion received in the longitudinal cavity of the femur, the proximal portion of the elongated stem member including an upper tapered portion adapted to be snugly received in the tapered longitudinal bore and a cylindrical portion near to the upper portion whereby the lower cylindrical portion is received in a lower extremity of the longitudinal tapered bore and has a diameter which is less than that of the tapered bore at said lower extremity so that stress concentration at the lower extremity of the bore is avoided.
 19. The implant system of claim 18 wherein said means for coupling said head member with the opening in the planar surface of the upwardly and inwardly directed portion of the body member further comprises: a neck member including a first end formed to include a tapered projection that is sized to be received into a tapered hole in said head member to secure said head member to said neck member, a second end for engaging the opening in the upwardly and inwardly directed portion of the body member, and an intermediate portion joining the first and second ends.
 20. The implant system of claim 19 wherein said opening in said planar surface includes a threaded portion and a tapered portion, and said neck member second end includes a threaded portion for engaging said opening threaded portion and a tapered portion between the threaded portion and the intermediate portion for engaging said body member.
 21. The implant system of claim 20 wherein said first end further includes a frangible torque control means for controlling the torque applied to the neck member when engaging said opening.
 22. The implant system of claim 21 wherein the tapered portion of the elongated stem member and the tapered portion of the neck member first end has a taper angle sufficiently small to provide a wedging engagement, and the tapered portion of the neck member second end has a taper angle sufficiently large to avoid a wedging engagement.
 23. The implant system of claim 18 further comprising a top surface at the uppermost end of the body member perpendicular to said first axis and intersecting the neck basal plane coincident surface, an upper end of the longitudinal cavity emerging through the top surface, and a fastener situated above said top surface and having a lower surface confronting the top surface.
 24. An implant system for replacing a portion of a femur, said femur having a neck with a base defining a neck basal plane and having a longitudinal cavity defining a first axis, the implant system comprising:a body member having an upwardly and inwardly directed portion including a planar surface defining a plane generally coincident with said neck basal plane, the planar surface having an opening including a threaded portion and a tapered portion, the body member also having a tapered longitudinal bore generally aligned with said first axis, said tapered bore extending from a lower region to an upper region of the body member, and a top surface at the uppermost end of the body member, perpendicular to said first axis, and intersecting the neck basal plane coincident surface, an upper end of the longitudinal cavity emerging through the top surface, a head member sized to replace the head of the femur including a tapered hole, a neck member including a first end formed to include a tapered projection that is sized to be received into the a tapered hole in said head member to secure said head member to said neck member and a second end including a threaded portion for engaging said opening threaded portion and a tapered portion between the threaded portion and the first end portion for engaging the opening in the upwardly and inwardly directed portion of the body member, an elongated stem member having a proximal portion received and secured in the tapered longitudinal bore of the body member and a distal portion received in the longitudinal cavity of the femur, the proximal portion of the elongated stem member including an upper tapered portion adapted to be snugly received in the tapered longitudinal bore and a cylindrical portion near to the upper portion where the lower cylindrical portion is received in a lower extremity of the longitudinal tapered bore and has a diameter which is less than that of the tapered bore at said lower extremity so that stress concentration at the lower extremity of the bore is avoided, and fastener means situated above said top surface of the body member, coupled to an upper end of the elongated stem member, and having a lower surface confronting the top surface.
 25. An implant system for replacing a portion of a femur, said femur having a neck with a base defining a neck basal plane and having a longitudinal cavity defining a first axis, the implant system comprising a body member formed to include an upwardly and inwardly directed portion and a tapered longitudinal bore that is generally aligned with said first axis, said tapered bore extending from a lower region to an upper region of the body member, a head member sized to replace the head of the femur including means for engaging said head member with the upwardly and inwardly directed portion of the body member, and an elongated stem member having a proximal portion received and secured in the tapered longitudinal bore of the body member and a distal portion received in the longitudinal cavity of the femur, the proximal portion of the elongated stem member including an upper tapered portion adapted to be snugly received in the tapered longitudinal bore,wherein the upwardly and inwardly directed portion of the body member includes a planar surface defining a plane generally coincident with said neck basal plane, said planar surface formed to include an opening receiving said means for engaging said head member. wherein said means for engaging said head member with the upwardly and inwardly directed portion of the body member further comprises: a neck member including a first end formed to include a tapered projection that is sized to be received into a tapered hole in said head member to secure said head member to said neck member, and a second end for engaging said body member. wherein said opening in said planar surface includes a threaded portion and said neck member second end includes a threaded portion for engaging said opening threaded portion, and wherein said first end further includes a frangible torque control means for controlling the torque applied to the neck member when engaging said opening.
 26. An implant system for replacing a portion of a femur, said femur having a neck with a base defining a neck basal plane and having a longitudinal cavity defining a first axis, the implant system comprising a body member formed to include an upwardly and inwardly directed portion and a tapered longitudinal bore that is generally aligned with said first axis, said tapered bore extending from a lower region to an upper region of the body member, a head member sized to replace the head of the femur including means for engaging said head member with the upwardly and inwardly directed portion of the body member, and an elongated stem member having a proximal portion received and secured in the tapered longitudinal bore of the body member and a distal portion received in the longitudinal cavity of the femur, the proximal portion of the elongated stem member including an upper tapered portion adapted to be snugly received in the tapered longitudinal bore,wherein the upwardly and inwardly directed portion of the body member includes a planar surface defining a plane generally coincident with said neck basal plane, said planar surface formed to include an opening receiving said means for engaging said head member. wherein said means for engaging said head member with the upwardly and inwardly directed portion of the body member further comprises: a neck member including a first end formed to include a tapered projection that is sized to be received into a tapered hole in said head member to secure said head member to said neck member, and a second end for engaging said body member. wherein said opening in said planar surface includes a threaded portion and said neck member second end includes a threaded portion for engaging said opening threaded portion, wherein said opening in said planar surface includes a tapered portion and said neck member second end further includes a tapered portion between the threaded portion and the first end for engaging said body member.
 27. The implant system of claim 26 wherein said first end tapered portion has a smaller taper angle than said second end tapered portion.
 28. The implant system of claim 27 wherein said first end tapered portion has a taper angle of less than about 7°, and wherein said second end tapered portion has a taper angle of more than about 10°.
 29. An implant system for replacing a portion of a femur, said femur having a neck with a base defining a neck basal plane and having a longitudinal cavity defining a first axis, the implant system comprising a body member formed to include an upwardly and inwardly directed portion and a tapered longitudinal bore that is generally aligned with said first axis, said tapered bore extending from a lower region to an upper region of the body member, a head member sized to replace the head of the femur including means for engaging said head member with the upwardly and inwardly directed portion of the body member, and an elongated stem member having a proximal portion received and secured in the tapered longitudinal bore of the body member and a distal portion received in the longitudinal cavity of the femur, the proximal portion of the elongated stem member including an upper tapered portion adapted to be snugly received in the tapered longitudinal bore,wherein the upwardly and inwardly directed portion of the body member includes a planar surface defining a plane generally coincident with said neck basal plane, said planar surface formed to include an opening receiving said means for engaging said head member; wherein said body member further comprises: a locking finger, and wherein said stem member further comprises a locking groove, said locking finger and said locking groove adapted to mate to orient the stem member with respect to the body member.
 30. An implant system for replacing a portion of a femur, said femur having a neck with a base defining a neck basal plane and having a longitudinal cavity defining a first axis, the implant system comprising a body member formed to include an upwardly and inwardly directed portion and a tapered longitudinal bore that is generally aligned with said first axis, said tapered bore extending from a lower region to an upper region of the body member, a head member sized to replace the head of the femur including means for engaging said head member with the upwardly and inwardly directed portion of the body member, and an elongated stem member having a proximal portion received and secured in the tapered longitudinal bore of the body member and a distal portion received in the longitudinal cavity of the femur, the proximal portion of the elongated stem member including an upper tapered portion adapted to be snugly received in the tapered longitudinal bore,wherein the upwardly and inwardly directed portion of the body member includes a planar surface defining a plane generally coincident with said neck basal plane, said planar surface formed to include an opening receiving said means for engaging said head member; the implant system further comprising: a collar member adapted to be disposed between said neck member and said body member in a plane generally coincident with said neck basal plane; wherein said collar member, adapted to be disposed between said neck member and said body member, further comprises: an extension over the top surface at the uppermost end of the body member and the upper portion of said stem, the collar member including two openings, the first opening configured to receive said upper portion of the stem member and the second opening configured to receive a portion of said neck member.
 31. An implant system for replacing a portion of a femur, said femur having a neck with a base defining a neck basal plane and having a longitudinal cavity defining a first axis, the implant system comprising a body member formed to include an upwardly and inwardly directed portion and a tapered longitudinal bore that is generally aligned with said first axis, said tapered bore extending from a lower region to an upper region of the body member, a head member sized to replace the head of the femur including means for engaging said head member with the upwardly and inwardly directed portion of the body member, and an elongated stem member having a proximal portion received and secured in the tapered longitudinal bore of the body member and a distal portion received in the longitudinal cavity of the femur, the proximal portion of the elongated stem member. including an upper tapered portion adapted to be snugly received in the tapered longitudinal bore,wherein the upwardly and inwardly directed portion of the body member includes a planar surface defining a plane generally coincident with said neck basal plane, said planar surface formed to include an opening receiving said means for engaging said head member; the implant system further comprising: a collar member adapted to be disposed between said neck member and said body member in a plane generally coincident with said neck basal plane; wherein said collar member adapted to be disposed between said neck member and said body member further comprises a generally trapezoid-shaped portion, and said body member includes a generally wedge-shaped slot, said trapezoid-shaped portion configured to be received in said wedge-shaped slot to attach said collar member to said body member.
 32. An implant system for replacing a portion of a femur, said femur having a neck with a base defining a neck basal plane and having a longitudinal cavity defining a first axis, the implant system comprising a body member formed to include an upwardly and inwardly directed portion and a tapered longitudinal bore that is generally aligned with said first axis, said tapered bore extending from a lower region to an upper region of the body member, a head member sized to replace the head of the femur including means for engaging said head member with the upwardly and inwardly directed portion of the body member, and an elongated stem member having a proximal portion received and secured in the tapered longitudinal bore of the body member and a distal portion received in the longitudinal cavity of the femur, the proximal portion of the elongated stem member including an upper tapered portion adapted to be snugly received in the tapered longitudinal bore and a lower portion near to the upper portion whereby the lower portion is received in a lower extremity of the longitudinal tapered bore and has a cross-sectional area which is less than that of the tapered bore at said lower extremity so that stress concentration at the lower extremity of the bore is avoided.
 33. An implant system for replacing a portion of a femur, said femur having a neck with a base defining a neck basal plane and having a longitudinal cavity defining a first axis, the implant system comprising a body member having an upwardly and inwardly directed portion including a planar surface defining a plane generally coincident with said neck basal plane, the planar surface having an opening, the body member also having a tapered longitudinal bore generally aligned with said first axis, said tapered bore extending from a lower region to an upper region of the body member, a head member sized to replace the head of the femur and means for coupling said head member with the opening in the planar surface of the upwardly and inwardly directed portion of the body member, and an elongated stem member having a proximal portion received and secured in the tapered longitudinal bore of the body member and a distal portion received in the longitudinal cavity of the femur, the proximal portion of the elongated stem member including an upper tapered portion adapted to be snugly received in the tapered longitudinal bore and a lower portion near to the upper portion whereby the lower portion is received in a lower extremity of the longitudinal tapered bore and has a cross-sectional area which is less than that of the tapered bore at said lower extremity so that stress concentration at the lower extremity of the bore is avoided.
 34. An implant system for replacing a portion of a femur, said femur having a neck with a base defining a neck basal plane and having a longitudinal cavity defining a first axis, the implant system comprising:a body member having an upwardly and inwardly directed portion including a planar surface defining a plane generally coincident with said neck basal plane, the planar surface having an opening including a threaded portion and a tapered portion, the body member also having a tapered longitudinal bore generally aligned with said first axis, said tapered bore extending from a lower region to an upper region of the body member, and a top surface at the uppermost end of the body member, perpendicular to said first axis, and intersecting the neck basal plane coincident surface, an upper end of the longitudinal cavity emerging through the top surface, a head member sized to replace the head of the femur including a tapered hole, a neck member including a first end formed to include a tapered projection that is sized to be received into the a tapered hole in said head member to secure said head member to said neck member and a second end including a threaded portion for engaging said opening threaded portion and a tapered portion between the threaded portion and the first end portion for engaging the opening in the upwardly and inwardly directed portion of the body member, an elongated stem member having a proximal portion received and secured in the tapered longitudinal bore of the body member and a distal portion received in the longitudinal cavity of the femur, the proximal portion of the elongated stem member including an upper tapered portion adapted to be snugly received in the tapered longitudinal bore and a lower portion near to the upper portion where the lower portion is received in a lower extremity of the longitudinal tapered bore and has a cross-sectional area which is less than that of the tapered bore at said lower extremity so that stress concentration at the lower extremity of the bore is avoided, and fastener means situated above said top surface of the body member, coupled to an upper end of the elongated stem member, and having a lower surface confronting the top surface. 